Publications

Ripley, Brad; Visser, Vernon; Christin, Pascal-Antoine; Archibald, Sally; Martin, Tarryn; Osborne, Colin (2015). Fire ecology of C-3 and C-4 grasses depends on evolutionary history and frequency of burning but not photosynthetic type. ECOLOGY, 96(10), 2679-2691.

Abstract
Grasses using the C-4 photosynthetic pathway dominate frequently burned savannas, where the pathway is hypothesized to be adaptive. However, independent C-4 lineages also sort among different fire environments. Adaptations to fire may thus depend on evolutionary history, which could be as important as the possession of the C-4 photosynthetic pathway for life in these environments. Here, using a comparative pot experiment and controlled burn, we examined C-3 and C-4 grasses belonging to four lineages from the same regional flora, and asked the following questions: Do lineages differ in their responses to fire, are responses consistent between photosynthetic types, and are responses related to fire frequency in natural habitats? We found that in the C-4 Andropogoneae lineage, frost killed a large proportion of aboveground biomass and produced a large dry fuel load, which meant that only a small fraction of the living tissue was lost in the fire. C-3 species from the Paniceae and Danthonioideae lineages generated smaller fuel loads and lost more living biomass, while species from the C-4 lineage Aristida generated the smallest fuel loads and lost the most living tissue. Regrowth after the fire was more rapid and complete in the C-4 Andropogoneae and C-3 Paniceae, but incomplete and slower in the C-3 Danthonioideae and C-4 Aristida. Rapid recovery was associated with high photosynthetic rates, high specific leaf area, delayed flowering, and frequent fires in natural habitats. Results demonstrated that phylogenetic lineage was more important than photosynthetic type in determining the fire response of these grasses and that fire responses were related to the frequency that natural habitats burned.

DOI:
10.1890/14-1495.1.sm

ISSN: